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Intracellular calcium stores regulate activity-dependent neuropeptide release from dendrites

Author

Listed:
  • Mike Ludwig

    (University of Edinburgh Medical School)

  • Nancy Sabatier

    (University of Edinburgh Medical School)

  • Philip M. Bull

    (University of Edinburgh Medical School)

  • Rainer Landgraf

    (Max Planck Institute of Psychiatry, Clinical Institute)

  • Govindan Dayanithi

    (University of Montpellier II)

  • Gareth Leng

    (University of Edinburgh Medical School)

Abstract

Information in neurons flows from synapses, through the dendrites and cell body (soma), and, finally, along the axon as spikes of electrical activity that will ultimately release neurotransmitters from the nerve terminals. However, the dendrites of many neurons also have a secretory role, transmitting information back to afferent nerve terminals1,2,3,4. In some central nervous system neurons, spikes that originate at the soma can travel along dendrites as well as axons, and may thus elicit secretion from both compartments1. Here, we show that in hypothalamic oxytocin neurons, agents that mobilize intracellular Ca2+ induce oxytocin release from dendrites without increasing the electrical activity of the cell body, and without inducing secretion from the nerve terminals. Conversely, electrical activity in the cell bodies can cause the secretion of oxytocin from nerve terminals with little or no release from the dendrites. Finally, mobilization of intracellular Ca2+ can also prime the releasable pool of oxytocin in the dendrites. This priming action makes dendritic oxytocin available for release in response to subsequent spike activity. Priming persists for a prolonged period, changing the nature of interactions between oxytocin neurons and their neighbours.

Suggested Citation

  • Mike Ludwig & Nancy Sabatier & Philip M. Bull & Rainer Landgraf & Govindan Dayanithi & Gareth Leng, 2002. "Intracellular calcium stores regulate activity-dependent neuropeptide release from dendrites," Nature, Nature, vol. 418(6893), pages 85-89, July.
    • Handle: RePEc:nat:nature:v:418:y:2002:i:6893:d:10.1038_nature00822
    DOI: 10.1038/nature00822
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    1. Matthijs Moerkerke & Nicky Daniels & Laura Tibermont & Tiffany Tang & Margaux Evenepoel & Stephanie Van der Donck & Edward Debbaut & Jellina Prinsen & Viktoria Chubar & Stephan Claes & Bart Vanaudenae, 2024. "Chronic oxytocin administration stimulates the oxytocinergic system in children with autism," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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